Design and characterization of a mouse trap based on a bistable mechanism

Design and characterization of a mouse trap based on a bistable mechanism

•A mouse trap based on a compliant bistable mechanism (BM) is developed.•Utilizing snap-through behavior of the BM, self-closing function to catch a mouse is attained without additional locking parts or latches.•Autonomous operation of the mouse trap makes the device very suitable for assembly and d...

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Bibliographic Details
Published in:Sensors and actuators. A. Physical. Vol. 267; pp. 360 - 375
Main Authors: Truong, Quoc-Dung, Tran, Ngoc-Dang-Khoa, Wang, Dung-An
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 01-11-2017
Elsevier BV
Subjects:
Bistable mechanism
Dismantling
Latches
Mathematical models
Mechanical properties
Mouse devices
Mouse trap
Pest control
Rodents
Self-closing
Sensors
Studies
Three dimensional printing
Mouse trap
Self-closing
Bistable mechanism
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Summary:•A mouse trap based on a compliant bistable mechanism (BM) is developed.•Utilizing snap-through behavior of the BM, self-closing function to catch a mouse is attained without additional locking parts or latches.•Autonomous operation of the mouse trap makes the device very suitable for assembly and disassembly of industrial parts. A mouse trap based on a compliant bistable mechanism (BM) is developed in this investigation. The gripping arms of the trap are the addition to the BM. Catch and release operation of the trap are accomplished by snap-through behaviors of the BM. Two stable equilibrium positions of the BM are correspondent to the baiting and gripping configurations of the trap. The proposed mechanism has no movable joints and gains its mobility from the deflection of compliant members. Device complexity is reduced by integration of jaws and gripping arms with the BM. Utilizing the snap-through behavior of the BM, self-closing function for catching mouse is attained without additional locking parts or latches. Therefore, the catch action is autonomous and does not require additional energy input to hold the trapped mouse. Analytical models are developed for design of the device. Prototypes of the mechanism are fabricated by a simple three dimensional printing process. The characteristics of the mechanism are verified by experiments. A “mouse” is caught and released though the linear motion of the BM. The mouse strap can also be used for assembly and disassembly of industrial parts.
ISSN:0924-4247
1873-3069
DOI:10.1016/j.sna.2017.10.040